plutonium-dioxide and americium-nitrate

The metabolic behavior of 239Pu and 241Am present in three industrial dusts has been studied after their inhalation by the rat. A comparative experiment has also been carried out with a mixture of these actinides, inhaled as their nitrates. The aim of this work was to provide an experimental basis for assessing limits on intake and to establish whether the 239Pu content in the lungs could be interpolated from measurements of 241Am. The results (1) demonstrate the wide differences in the lung retention kinetics of the actinides and in the absolute and relative amounts which translocate to the blood that can occur for industrially produced materials; (2) show that the annual limits on intake (ALI) for the different materials vary between those postulated for class W and Y compounds by the International Commission on Radiological Protection; (3) indicate that, depending on the nature of the dust, acute intakes of 239Pu equivalent to the ALI can be estimated from 241Am chest-monitoring data at times from a few days up to about 3 y after exposure.

Topics: Actinoid Series Elements; Aerosols; Air Pollutants, Occupational; Americium; Animals; Humans; Lung; Plutonium; Radiation Monitoring; Radiation Protection; Rats; Species Specificity

The effects of inhaled alpha emitters on the free cell population of the mouse lung were investigated up to 100 days after exposure. Groups of mice inhaled aerosols of 238PuO2, 239PuO2, or 241Am(NO3)3 to give alveolar deposits resulting in lung-averaged cumulative absorbed doses of about 20 Gy by the end of the study. Initially, with 238Pu most of the activity was associated with relatively few pulmonary alveolar macrophages (PAM), whereas with 241Am, all pulmonary alveolar macrophages were labeled and a substantial fraction was extracellular. The free cell population of the lung was sampled using bronchoalveolar lavage. The main parameters investigated were (a) the recovery and total numbers of free cells, including PAM, lymphocytes, and neutrophils; (b) the incidence of nuclear abnormalities in PAM (cells with more than one nucleus or with micronuclei); and (c) metabolic activation of PAM from measurements of their size and associated beta-glucuronidase activity. All three actinides produced depletions in total numbers of PAM, increased incidences of nuclear abnormalities, and metabolic activation of PAM, without a marked infiltration of inflammatory cells. Americium-241, which is distributed relatively uniformly in PAM, produced the most marked changes in that population and 238Pu, which gave the most inhomogeneous distribution of activity, produced the least.

Topics: Administration, Inhalation; Alpha Particles; Americium; Animals; Cell Count; Cell Nucleus; Female; Macrophage Activation; Macrophages; Mice; Mice, Inbred CBA; Plutonium; Pulmonary Alveoli